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E-raamat: From Additive Manufacturing to 3D/4D Printing 1: From Concepts to Achievements

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  • Ilmumisaeg: 30-Oct-2017
  • Kirjastus: ISTE Ltd and John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781119437390
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From Additive Manufacturing to 3D/4D Printing 1: From Concepts to AchievementsSuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 30-Oct-2017
  • Kirjastus: ISTE Ltd and John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781119437390
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With a turnover of some 5-15 billion / year, additive manufacturing has industrial niche carriers with more optimized processes and materials.

In 1984, additive manufacturing represented a new methodology for manipulating matter, consisting of harnessing materials and/or energy to create three-dimensional physical objects. Today, additive manufacturing technologies represent a market of around 5 billion euros per year, with an annual growth between 20 and 30%. Different processes, materials and dimensions (from nanometer to decameter) within additive manufacturing techniques have led to 70,000 publications on this topic and to several thousand patents with applications as wide-ranging as domestic uses.

Volume 1 of this series of books presents these different technologies with illustrative industrial examples. In addition to the strengths of 3D methods, this book also covers their weaknesses and the developments envisaged in terms of incremental innovations to overcome them.

Acknowledgments ix
Foreword xi
Preface xv
Introduction xxix
Part 1 From Spectacular Applications to the Economic Market of Additive Manufacturing
1(174)
Introduction to Part 1
3(4)
Chapter 1 Some Significant Examples
7(62)
1.1 Introduction
8(3)
1.2 Maritime, military, aerial and spatial applications
11(3)
1.3 Conception: art and new domestic applicative niches
14(9)
1.3.1 Art and additive manufacturing
17(2)
1.3.2 Archaeology, museum restoration, reproduction
19(2)
1.3.3 Construction sector
21(2)
1.4 Mechanical parts
23(5)
1.5 Land transport
28(4)
1.6 The question of spare parts
32(1)
1.7 Toys for the young and the "not-so-young"
33(1)
1.8 "Traditional" medical applications
34(5)
1.9 Animation
39(1)
1.10 Scientific applications
40(5)
1.10.1 Optics
40(1)
1.10.2 Chemical and process engineering
41(1)
1.10.3 Complex structures
42(1)
1.10.4 Toward the infinitely small
43(2)
1.11 Nanometric origami
45(2)
1.12 Conclusion
47(2)
1.13 Bibliography
49(20)
Chapter 2 Integration of Additive Manufacturing Technologies into Society
69(106)
2.1 Introduction
70(2)
2.2 Markets and application domains of 3D printing
72(8)
2.2.1 Markets
72(4)
2.2.2 Principal application niches
76(4)
2.3 Growth dynamics
80(4)
2.4 Studies on the dynamic of growth
84(56)
2.4.1 Convergence
84(3)
2.4.2 "Attractiveness" of additive manufacturing technologies
87(45)
2.4.3 Possible positioning of the industry
132(8)
2.5 Toward a certain stabilization: The dynamics of innovation
140(6)
2.6 Conclusion
146(6)
2.7 Bibliography
152(23)
Part 2 3D Processes
175(90)
Introduction to Part 2
177(4)
Chapter 3 Processes, Machines and Materials
181(84)
3.1 Introduction
183(5)
3.2 Stereolithography
188(19)
3.2.1 History of 2D1/2 processes
188(3)
3.2.2 Other techniques developed since 1984
191(2)
3.2.3 Light-matter interaction and space-resolved polymerization
193(4)
3.2.4 Consequences
197(4)
3.2.5 Families of materials used
201(6)
3.2.6 Layer implementation
207(1)
3.2.7 Coupling of polymerized surface generation and volumetric reduction
207(1)
3.3 Process of wire fusion
207(8)
3.3.1 FDM or FFF materials
211(1)
3.3.2 Adhesion
212(2)
3.3.3 Synthesis
214(1)
3.4 Sheet or powder gluing process
215(10)
3.4.1 Bi-material process (SDL)
215(2)
3.4.2 Variant using powders: 3DP Process
217(1)
3.4.3 Process using a cross-linkable polymer (SIR, for "Soluble/Insoluble Reaction")
218(5)
3.4.4 Synthesis
223(2)
3.5 Powder fusion/sintering
225(13)
3.5.1 Materials
227(1)
3.5.2 Energy sources
228(1)
3.5.3 Physicochemical aspects and constraints linked to the process
228(5)
3.5.4 Simultaneous contribution of matter and energy
233(2)
3.5.5 MPA process
235(1)
3.5.6 Synthesis
236(2)
3.6 Conclusion
238(7)
3.7 Bibliography
245(20)
Conclusion 265(10)
Index 275
Jean-Claude André, CNRS, France.
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